KR101270680B1 - Mnufacturing method of anti-stress cell line by knock-down of Arhgap 15 gene - Google Patents

Abstract

The present invention relates to a method for preparing a stress resistant cell line through knock-down of Arhgap 15 gene. According to the present invention, by establishing a strong Hanwoo fibroblast cell line resistant to external stress (ethanol, serum starvation, etc.), there is an advantage that can be utilized in cell fusion technology and knock-down stem cell line through enhanced culture period during production of cloned Hanwoo.

Description

Manufacturing method of stress-resistant cell line through knock-down of Ａｒｈｇａｐ 15 gene {Mnufacturing method of anti-stress cell line by knock-down of Arhgap 15 gene}

The present invention relates to a method for preparing a stress resistant cell line through knock-down of Arhgap 15 gene.

In living organisms, most of the somatic cells, except for some such as stem cells, germ cells or neurons, have a limited lifespan through aging. In other words, normal somatic cells cannot proliferate indefinitely because they reach the cell aging stage where cell growth stops after a certain number of cell divisions (Hayflick and Moorhead, 1961; Campisi, 2001).

The established cell line refers to a cell that has been isolated from a living body, which generally overcomes the process of cell aging and continues to exhibit cell proliferation even under artificial in vitro culture conditions. The cellular senescence mechanism, which is now commonly described, is a gene that recognizes this damage by inhibiting the proliferation of cells by inducing the damage of cells by the cellular reactive oxygen species (O2-, H2O2) inevitably generated during cell proliferation. Increased expression and activity inhibits the infinite proliferation of cells (Sherr and DePinho, 2000). Therefore, by increasing the expression of various antioxidants (MnSOD or catalase) that can inhibit the endogenous toxic oxide intracellular accumulation (Kim et al., 2004), increased the number of cell division in vitro culture (Kim et al., 2004). Genes derived from viruses (SV40, HPV) that can directly inhibit function were able to transmutate normal cells into immortalized cells (Hahn et al., 1999).

Very little research has been done on the interaction mechanisms of related genes using Hanwoo cell lines, and all current studies are using primary cultured cells. Periods of time are very limited and it is difficult to verify the reproducibility of the results.

In order to actively conduct research using Hanwoo fetal somatic cells, development of immortalized cell lines that can continuously divide, such as mice and rats, is very urgent.

In addition, the specification and management program for the production of high-quality beef cattle has been developed, but more in-depth research is needed to develop more efficient programs, and a model system for high-quality meat production is needed.

Under these technical backgrounds, the present inventors have made intensive efforts to develop excellent cell lines in Korean cattle, and have completed the present invention.

After all, the technical problem to be achieved by the present invention is to provide a method for producing a stress-resistant cell line through knock-down of Arhgap 15 gene.

According to an aspect of the present invention, a method for preparing a stress resistant cell line in an animal through knock-down of an Arhgap 15 gene may be provided.

In one embodiment, the animal may be a cow.

In one embodiment, the animal may be a bos taurus coreanae.

In one embodiment, the cell line may be derived from fibroblasts.

In one embodiment, the knock-down may be to use a deletion mutation of the Arhgap 15 gene.

In one embodiment, the stress may be due to ethanol.

In one embodiment, the stress resistance may be to reduce apoptosis.

According to another aspect of the present invention, a stress resistant cell line prepared according to the above method may be provided.

According to the present invention, by establishing a strong Hanwoo fibroblast cell line resistant to external stress (ethanol, serum starvation, etc.), there is an advantage that can be utilized in cell fusion technology and knock-down stem cell line through enhanced culture period during production of cloned Hanwoo.

1 and 2 show the morphological changes of the fibroblasts after transfection.
Figure 3 by siRNA MRNA expression of Arhgap15 is shown.
4 is by Western blot The expression patterns of Bax and Bcl-2 proteins are shown.
FIG. 5 shows Cytochrome C by Western Blot The expression pattern of the protein is shown.
Figure 6 shows the expression pattern of Caspase-3 protein by Western blot.
Figure 7 shows the expression pattern of PARP-1 protein by Western blot.
8 shows the results of measuring the concentration of intracellular calcium ions with fura-2.
9 shows immunofluorescence detection results of caspase-3 and PARP-1 proteins in fibroblasts.

Hereinafter, the present invention will be described in more detail.

According to an aspect of the present invention, a method for preparing a stress resistant cell line in an animal through knock-down of an Arhgap 15 gene may be provided.

In one embodiment, the animal may be a cow.

In one embodiment, the animal may be a bos taurus coreanae.

In the present invention, genes were efficiently knocked down through siRNA transfection (50nM, 30h) method for Arhgap 15 gene in Hanwoo fibroblasts.

The Arhgap 15 gene was treated with ethanol (100mM, 48h) in cells showing normal function. As a result, cell death was induced by decreased expression of bcl-2 protein and increased expression of caspase-3 and PARP-1 proteins.

However, ethanol treatment of the Arhgap 15 gene knock-down cells resulted in an increase in Bax / Bcl-2 ratio, Caspase-3 and cytochrome C protein expression, thereby significantly reducing apoptosis due to ethanol. This indicates that when the Arhgap 15 gene is knocked down, the cell line may be more resistant to stress, including ethanol and the like. Through this method, it is possible to establish a cell line of Hanwoo, which is more resistant to external stress, and thus can be used for breeding.

In one embodiment, the cell line may be derived from fibroblasts.

In one embodiment, the knock-down may be to use a deletion mutation of the Arhgap 15 gene.

In one embodiment, the stress may be due to ethanol.

In one embodiment, the stress resistance may be to reduce apoptosis.

According to another aspect of the present invention, a stress resistant cell line prepared according to the above method may be provided.

In the present invention, by inhibiting the Rho GTPase activating protein 15 (Arhgap 15) gene in the fibroblasts derived from Hanwoo by siRNA technique to inhibit the apoptosis by ethanol Examples 4 to 5 below The same method was investigated. As a result, resistance to stress such as ethanol was observed in cells knocked down the Arhgap 15 gene using siRNA technique, which was measured as a decrease in apoptosis. It can be used in the future cell fusion technology and the establishment of knock-down stem cell lines.

Hereinafter, the present invention will be described in more detail with reference to Examples. It should be understood, however, that these examples are for illustrative purposes only and are not to be construed as limiting the scope of the present invention.

Example  One. siRNA In transfection  Measurement of Cell Morphology Change

1 and 2 show the morphological changes of the fibroblasts after transfection. The siRNA was transfected at 50 nM and 100 nM concentrations and observed for cell changes 24 hours later. When the siRNAs were treated differently at 50 nM and 100 nM concentrations, the fibroblast morphology did not change significantly compared to the control.

Example  2. siRNA In transfection  About mRNA  Measurement of expression change

Figure 3 by siRNA MRNA expression patterns of Arhgap15 (left electrophoresis) and GAPDH (right electrophoresis). After siRNA was transfected at 50 nM and 100 nM concentrations, the mRNA changes of the cells were observed 24 hours later. When siRNAs were treated differently at 50 nM and 100 nM concentrations, siRNA concentration-dependent mRNA was knocked down in the siRNA treatment group, and fibroblast knock-down occurred best at 50 nM. As shown in the right picture of Figure 3, knock-down of Arhgap15 gene did not occur in the control group GAPDH.

Example  3. Ethanol and siRNA  Apoptosis by treatment apoptosis Related Protein Changes

4 is by Western blot The expression patterns of Bax and Bcl-2 proteins are shown. Hanwoo fibroblasts were incubated in DMEM medium for 48 hours and then divided into four experimental groups, respectively, divided into four groups: control, siRNA treatment group, ethanol treatment group, ethanol + siRNA treatment group, siRNA 50nM, 30 hours ethanol 100mM Thirty hours each treatment. Results The expression level of Bcl-2 protein, an anti-apoptosis inducer, was increased not only by siRNA treatment but also by the ethanol treatment. On the other hand, Bax, an apoptosis inducer, was decreased by ethanol treatment, but compared to Bax / Bcl-2 ratio, the K-down of Arhgap 15 gene inhibited apoptosis due to a significant decrease in ethanol + siRNA group. It can be seen that it is effective.

Apoptosis signals due to changes in the Bax / Bcl-2 ratio are then transmitted to the mitochondria to release cytochrome C. As a result, the expression level of cytochrome C protein was not changed in the siRNA treatment group. In contrast, the ethanol treatment group slightly increased cytochrome C, which significantly reduced siRNA. As a result, knock-down of Arhgap 15 gene significantly inhibited cytochrome C protein expression when apoptosis was induced by ethanol.

Figure 6 shows the expression pattern of Caspase-3 protein by Western blot. Caspase-3 activates cytochrome C released from mitochondria in complex with Apaf-1 / Caspase-9 and is a key indicator of cell death. The results showed the same pattern as the above Cytochorme C. In the siRNA treatment group, the expression level of Caspase-3 protein was not changed. On the other hand, ethanol treatment showed a slight increase in Caspase-3, which significantly reduced siRNA. As a result, knock-down of Arhgap 15 gene significantly inhibited Caspase-3 protein expression when apoptosis was induced by ethanol.

Figure 7 shows the expression pattern of PARP-1 protein by Western blot. PARP (poly ADP-ribose polymerase) protein is a nuclear protein that induces cell death by repairing DNA or producing PAR to stimulate mitochondria and release AIF. The experimental results showed that there was no significant change in the expression of PARP-1 in the siRNA and control groups, and the activation of PARP-1 protein in the ethanol treatment group, but the siRNA did not change the expression of PARP-1 protein. Thus, knock-down of Arhgap 15 gene did not affect caspase-independent apoptosis by nuclear protein PARP-1 protein expression.

Example  4. siRNA  In the cytoplasm by treatment Ca ^{2 +}  change

Apoptosis signals by external stimuli raise the Ca2 + concentration in the cytoplasm, which induces apoptosis by activating Ca2 + dependent phosphatase / kinase proteins. 8 shows the results of measuring the concentration of intracellular calcium ions with fura-2. Experimental results show that the siRNA treatment slightly decreases the Ca2 + concentration in the cytoplasm, thereby knocking down the Arhgap 15 gene.

Example  5. Fibroblasts Fibroblast ) Using fluorescent antibody Caspase -3 / DAPI  dyeing

Fluorescent antibodies were used to confirm the expression of caspase-3, an apoptosis indicator, and nuclear staining was performed using DAPI for counterstaining. 9 shows immunofluorescence detection results of caspase-3 and PARP-1 proteins in fibroblasts. In the control group, Caspase-3 (red) was strongly expressed in the cytoplasm and nucleus, and the expression of the cytoplasmic part was decreased in the siRNA treatment group. In contrast, both groups of DAPI (blue) stained strongly in the nucleus. Thus, the siRNA transfection of the Arhgap 15 gene inhibited apoptosis.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, those skilled in the art will appreciate that such specific embodiments are merely preferred embodiments and that the scope of the present invention is not limited thereby. something to do. It is therefore intended that the scope of the invention be defined by the claims appended hereto and their equivalents.

Claims (8)

A method for preparing stress resistant cell lines in animals through knock-down of Arhgap 15 gene.
The method of claim 1, wherein the animal is bovine.
The method of claim 1, wherein the animal is a bovine taurus coreanae.
The method of claim 1, wherein the cell line is derived from fibroblasts.
The method of claim 1, wherein the knock-down method uses a deletion mutation of the Arhgap 15 gene.
The method of claim 1, wherein the stress is stress caused by ethanol.
The method of claim 1, wherein the stress resistance is that cell death is reduced.
A stress resistant cell line prepared according to any one of claims 1 to 5.

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